#include <hd_led.h>
#include <hd_oled.h>
#include <hd_oled_protocol_i2c.h>
#include <stdio.h>
#include <pd_usart.h>
#include <pd_i2c_hd.h>
#include <hd_flash.h>
#include "main.h"

#define OLED_PROTOCOL       2   // Select a protocol. SPI, 1; I2C, 2;
#define OLED_PROTOCOL_IMPL  2   // Select a implement. simulate, 1; hardware, 2;

static OLED *oled;

void oled_instance();

extern void SystemClock_Config(void);

int main(void) {

    SystemClock_Config();

    NVIC_SetPriorityGrouping(NVIC_PRIORITYGROUP_2);

    oled_instance();
    oled->showString(oled, 0, 0, "USART1 Send");
    oled->refresh(oled);

    GPIO *usartGPIO[] = {GPIOBuilder.build(GPIOA, LL_GPIO_PIN_9), GPIOBuilder.build(GPIOA, LL_GPIO_PIN_10)};
    GPIOList *uartGPIOList = GPIOListBuilder.build(usartGPIO, 2);
    USART *usart = USARTBuilder.build(USART1, uartGPIOList, 9600);
    usart->init(usart, USART1_IRQn, 1, 1);

    // 发送字节
    usart->send_byte(usart, 0x41);
    // 发送数组
    uint8_t array[] = {0x42, 0x43, 0x44, 0x45, 0xD, 0xA};
    usart->send_array(usart, array, 6);
    // 发送字符串、数字
    usart->send_string(usart, "Num1=");
    usart->send_num(usart, 111, 3);
    usart->send_string(usart, "\r\n");

    printf("Num2=%d\r\n", 222);

    // 发送字符串
    char String[100];
    sprintf(String, "Num3=%d\r\n", 333);
    usart->send_string(usart, String);

    // printf
    usart->printf(usart, "Num4=%d\r\n", 444);
    usart->printf(usart, "\r\n");

    while (1) {
    }

}

void oled_instance() {
#if OLED_PROTOCOL == 1
    GPIO *sckGPIO = GPIOBuilder.build(GPIOA, LL_GPIO_PIN_5); // Clock, SPIx_SCK
    GPIO *sdaGPIO = GPIOBuilder.build(GPIOA, LL_GPIO_PIN_7); // MOSI,  SPIx_MOSI
    GPIO *resGPIO = GPIOBuilder.build(GPIOA, LL_GPIO_PIN_3); // Reset, General IO, the chip reset pin is better
    GPIO *dcGPIO = GPIOBuilder.build(GPIOA, LL_GPIO_PIN_1);  // Data or Command, General IO
    GPIO *csGPIO = GPIOBuilder.build(GPIOA, LL_GPIO_PIN_2);  // Chip Select(Slave Select), General IO
    SPIGPIO *spiGPIO = SPIGPIOBuilder.build(&csGPIO, 1, sckGPIO, sdaGPIO, NULL);

#if OLED_PROTOCOL_IMPL == 1
    SPISimulate *spiObj = SPISimulateBuilder.build(spiGPIO);
#elif OLED_PROTOCOL_IMPL == 2
    SPIHardware *spiObj = SPIHardwareBuilder.build(SPI1, spiGPIO);
#endif
    SPI *spi1 = (SPI *) spiObj;
    spi1->init(spi1);
    OLEDProtocolSPI *oledProtocolObj = OLEDProtocolSPIBuilder.build(spi1, resGPIO, dcGPIO, csGPIO);

#elif OLED_PROTOCOL == 2
    GPIO *sckGPIO = GPIOBuilder.build(GPIOB, LL_GPIO_PIN_10);  // I2Cx_SCL
    GPIO *sdaGPIO = GPIOBuilder.build(GPIOB, LL_GPIO_PIN_11);  // I2Cx_SDA
#if OLED_PROTOCOL_IMPL == 1
    I2CSimulate *i2CObj = I2CSimulateBuilder.build(sckGPIO, sdaGPIO);
#elif OLED_PROTOCOL_IMPL == 2
    I2CHardware *i2CObj = I2CHardwareBuilder.build(I2C2, sckGPIO, sdaGPIO);
#endif
    I2C *i2c = (I2C *) i2CObj;
    i2c->init(i2c);
    OLEDProtocolI2C *oledProtocolObj = OLEDProtocolI2CBuilder.build(i2c);
#endif

    StorageFlash *storageFlash = StorageFlashBuilder.build();
    OLEDFont *oledFont = OLEDFontBuilder.build((Storage *) storageFlash, ENCODING_UTF8);
    oled = OLEDBuilder.build((OLEDProtocol *) oledProtocolObj, oledFont);
    oled->init(oled);
}
